Geographically constrained network services

ABSTRACT

A method and system are disclosed for determining the geographic location of a user communicating on a communications network such as the Internet. In one embodiment, a provider of a product or service: (a) receives the user&#39;s phone number (or other identification for contacting the user&#39;s station), and (b) supplies the user&#39;s station with a distinctive identifier. The provider then supplies a location determining service with the user&#39;s phone number (or other identification). A phone call is made to the phone number by the location determining service for retrieving the distinctive identifier from the network station having the phone number. If the distinctive identifier is retrieved and the location determining service determines that the user&#39;s station is within an appropriate geographical area (or not within an inappropriate area), then the provider can provide the requested product or service to the user.

CROSS REFERENCE TO RELATED APPLICATIONS

The present application is a continuation of U.S. patent Ser. No. 13/561,846, filed Jul. 30, 2012 (now U.S. Pat. No. 8,694,025), which is a continuation of U.S. patent application Ser. No. 10/857,565, filed May 28, 2004, which is a continuation of U.S. patent application Ser. No. 09/669,255, filed Sep. 25, 2000, and which claims the benefit of U.S. Provisional Patent Application No. 60/156,066 filed Sep. 24, 1999. All of the above references are incorporated herein by this reference.

RELATED FIELD OF THE INVENTION

The present invention relates to verifying geographic locations of users on a communications network, e.g., for determining whether to provide a product or service to such users, and in particular, the present invention is useful for determining whether a product or service can be legitimately provided to an Internet user by determining the Internet user's geographic location when the product or service is requested.

BACKGROUND

Geographically extensive communication networks such as the Internet are substantially viewed as being geographic-less in the sense that such networks extend across substantially all national and all local country, state, and political boundaries. Accordingly, it has been difficult to monitor and/or provide certain services on networks, such as the Internet, due to the network not having sufficient capability for respecting such boundaries. Moreover, while legal statutes may cause certain network sites to be restricted in their network services due to the site's geographical location being within the jurisdiction for such statutes, other network sites outside of the area to which the statutes apply may have an unfair advantage in that the prohibited services can be offered to substantially all network users from such latter network sites, In particular, the above described general scenario applies to gambling on the Internet in that, e.g., Internet sites within the United States are prohibited, in general, from offering wagering on games such as blackjack, poker, pia gow, craps, and roulette due to gambling restrictions in various U.S. states and/or counties or other legal jurisdictions.

Additionally, other communication network services are also either not available or not appropriately restricted due to the lack of being able to locate and/or verify the locations of network users. In particular, certain software products have been determined by various governments to be restricted in their dissemination across national boundaries. Accordingly, if network users could have their locations verified, then such restrictions in the downloading of software from the Internet could be better enforced. Additionally, by verifying a location of a network user, network services could be effectively taxed according to the user's location when purchasing a network service such as the downloading of software via the Internet.

Moreover, by verifying a network user's location, a network site in communication with the user may be able to adapt its services and/or display to present to the user relevant information and services related to a geographical area within which the user is determined to be located. For example, an Internet website can utilize a verification of a user's location for selecting or prioritizing: (a) a list of additional website offering services that are available near the user's location, and/or (b) advertising of services or products locally available to the user. Note that the verification (or more precise determination) of a user's location in the present context may be particularly important for wireless Internet. users who are traveling and/or who do not know their current location, For example, providing such an Internet website for the travel industry, allows a user to access the website from different locations (via, e.g., different hotel Internet connections, or via a mobile wireless Internet connection), and subsequently select locally related advertising and other local information such as locally preferred restaurants, locations of scenic sites, a listing of local events, etc. based on the user's location and optionally the date and time (as contemplated by the present invention).

Accordingly, it would be desirable to have a network based capability for geographically verifying and/or more precisely determining the location of network users for allowing, restricting, and/or selecting network services according to each user's location.

SUMMARY

The present invention is a method and system for determining or verifying the geographic location of a user while the user is communicating on a communications network such as the Internet. The user's location can be straightforwardly determined by a provider of a product or service requested by the user during network communications between the user and the provider. Thus, the user's location can be determined at the time the service or product is requested by the provider.

In one embodiment of the present invention, to determine the location of the user's network station (and thus locating the user), the provider: (a) receives the user's phone number (or other identification for contacting the user's station), and (b) supplies the user's station with a distinctive identifier. Additionally, the provider supplies a location determining service with the user's phone number (or other identification) requesting that the location determining service determine the location of the network station having the phone number. Moreover, a phone call is made to the phone number for retrieving the distinctive identifier from the network station having the phone number. If the distinctive identifier is retrieved and the location determining service indicates that the user's station is within an appropriate geographical area (or not within an inappropriate area), then the provider can provide the requested product or service to the user.

Thus the present disclosure describes a location determining service for verifying, or more precisely determining, the location of users on a communications network such as the Internet. in particular, embodiments of the network based location system of the present invention combine network (e.g. Internet) services with telephony location services that are available for locating telephone users. In particular, such user location capabilities are widely used for emergency services such as 911. Moreover, enhancements in location technologies have extended the traditional landline based location services to also include users on wireless devices such as cellular or wireless telephones.

Thus, it is an aspect of the present invention, as related to the Internet, to combine:

(a) Internet communications between, e.g., a website and a user with (b) additional telephony based communications between the website and the user for verifying the location of the user prior to providing and/or selecting the services that the website offers to the Internet user. In particular, the present invention transmits a unique identifier to an Internet user whose location is to be verified, and subsequently causes the Internet user to place a conventional telephony call to a predetermined phone number for transmitting the identification (provided in the initial Internet transmission to the Internet user). Subsequently, upon picking up the call placed by the Internet user to the predetermined number, the callee (e.g., the website) captures both the Internet user's telephone number and the transmitted identification. The transmitted identification is used to retrieve previously stored information about the Internet user, and in particular, a user's previously input general geographical location (e.g., the country, state or city within which the user has indicated he/she is located), and associate the user information with the Internet user's captured phone number.

Subsequently, the user's general location is used to identify a telephony location providing service having coverage for the user specified general geographical area of the Internet user for thereby determining or verifying a relatively precise location of the user, and providing this information to the website so that appropriate services can be selected for providing to the Internet user.

In one embodiment of the present application, the following steps are performed for determining the location of a user requesting services from a network site of a communications network:

-   -   Step 1: receiving, at the network site, user information for         identifying the user, and a first approximate location of the         user;     -   Step 2: determining, using the first approximate location of the         user, a location service provider providing coverage for the         first approximate user location;     -   Step 3: causing the user's network station to call a         predetermined telephone number for identifying the user;     -   Step 4: receiving the user's call at the predetermined telephone         number, and: (a) capturing the user's telephone number, and (b)         obtaining identification information for identifying the user;     -   Step 5: transmitting the user's telephone number to one of the         telephony location service providers selected for determining a         location of the user; and     -   Step 6: receiving from the selected telephony location service         provider, a more precise location of the user; and determining         services to be provided to the user on the communications         network according to the more precise location.

Other features and benefits of the present invention will become evident from the accompanying drawings and the detailed description herein below.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a block diagram showing the high level components used in an embodiment of the present invention wherein the communications network is, for example, the Internet.

FIGS. 2A and 2B provide a flowchart of the high level steps performed at a network service site (e.g., an Internet website), and at a user's network station for verifying the location of the user.

DETAILED DESCRIPTION

FIG. 1 shows a high level diagram of the components used in an embodiment of the present invention. Accordingly, a communications network 10, such as the Internet, is used for providing network based services between a network service site 14 and one or more network user stations 18 whose locations are desired to be verified (or determined) one or more times by the network service site 14. Additionally, one or more telephony location service providers 22 are in communication with the network site 14, via one or more public switched telephone networks 26, wherein the network service site 14 provides the telephone numbers of users (at their stations 18) who are to have their locations determined. Accordingly, the telephony location service providers 22 respond with locations of the network users. Note that such telephony location service providers 22 are currently available for providing the location of telephony subscribers for emergency services such as 911. Moreover, various technologies have been developed for also verifying the location of users on cellular or wireless phones such as global positioning location technologies, time difference of arrival triangulation technologies, angle of arrival technologies, and multipath pattern matching technologies for wireless signals as one skilled in the art will understand. Moreover, as one skilled in the art will also understand, the automatic location identification (ALI) currently used for emergency 911 services can also be used for providing location services to other location requesters such as the network service site 14.

The network service site 14 also accesses a database 30 of telephony location service providers 22, wherein the database associates each location service provider with their corresponding geographical coverage area for providing locations of users. This database is used to select an appropriate location service provider 22 given the general area in which the network user has indicated he/she is located, Additionally, the network service site 14 also accesses a database 34 having any geographical constraints to be applied during service activation with a user once the user's location has been verified (e.g., gambling wagering limitations according to the user's location). Moreover, note that in addition to geographical constraints, the database 34 may also include geographically associated advertising and additional information to provide to the user depending upon the user's verified location,

A general high level flowchart illustrating the steps performed by the present invention is provided in the flowchart of FIGS. 2A and 2B. Note that this flowchart describes the steps performed when a network user requests a particular service. However, as one skilled in the art will understand, a similar flowchart can be provided for substantially unrequested services as advertising of locally available products and/or services, The foregoing discussion of the invention has been presented for purposes of illustration and description. Further, the description is not intended to limit the invention to the form disclosed herein. Consequently, variations and modifications commensurate with the above teachings, and within the skill and knowledge of the relevant art, are within the scope of the present invention. The embodiments described hereinabove are further intended to explain the best mode presently known of practicing the invention and to enable others skilled in the art to utilize the invention as such, or in other embodiments, and with the various modifications required by their particular application or uses of the invention, It is intended that the appended claims be construed to include alternative embodiments to the extent permitted by the prior art. 

What is claimed is:
 1. A method for determining the location of a user by locating a network station residing with the user for providing network communications, comprising performing the following steps (a) through (f) at a time when the location is desired, wherein one or more networks are accessed by the network station from a plurality of different locations, wherein at least one of the different locations is used to determine whether at least one network service is available to the network station via a connection to at least one of the networks; (a) receiving, via a first network communication from the network station, first identification information for identifying the user or the network station; (b) subsequently transmitting, via a second network communication, second identification information to the network station for storing thereon and distinctively identifying the user or the network station; (c) subsequently receiving, from the network station via a third network communication, the second identification information at a predetermined network site; (d) using the received second identification information to identify the first identification information; (e) subsequently transmitting, via a fourth network communication, a request for determining a location of the network station when the first identification information is identified in the step (d), wherein the request is determined using a first approximate location of the network station; (f) receiving, in response to the request, a fifth network communication for providing, to a corresponding predetermined network site, the location as a more precise location of the network station than the first approximate location; and selecting a wireless location provider using the first approximate location, wherein the wireless location provider is then activated for determining the more precise location, the wireless location provider determining the more precise location using one of the following location technologies: global positioning location technology, a wireless signal time difference of arrival location technology, a wireless signal angle of arrival location technology, and a wireless signal multipath pattern matching location technology; wherein a destination of the request is determined using the first approximate location, wherein the network station includes a cellular wireless device for communicating on the Internet during a performance of the steps (a) through (f); and determining the request according to a coverage area of a location determining service having the first approximate location, wherein the network station includes a cellular wireless device for communicating on the Internet.
 2. The method of claim 1 further including using the first approximate location to identify the location determining service to which the request is transmitted.
 3. The method of claim 1 further including determining a service to be provided to the user according to the more precise location, the service provided via transmissions on one of the networks.
 4. The method of claim 1, wherein the at least one network service includes providing advertising to the network station, the advertising based on the more precise location.
 5. The method of claim 1, wherein the at least one network service selects or prioritizes network sites based on the more precise location, wherein the selection or prioritization of network sites uses information for identifying one or more of the network sites that offer services, the services being near the more precise location.
 6. The method of claim 1, further including determining whether the second identification information is retrieved from the network station in order to perform the step of (c).
 7. The method of claim 1, wherein the service includes selecting or prioritizing network sites based on the more precise location, wherein the selecting or prioritizing includes obtaining advertising information for identifying products or services that are offered near to the more precise location.
 8. The method of claim 1, wherein the step of (c) subsequently receiving, from the network station via a third network communication, the second identification information at a predetermined site, is in response to a request for the second identification information; and wherein the network station is a wireless network station; and the more precise location requires analysis of a geographically varying characteristic of wireless signals between the network station and the network.
 9. The method of claim 1, wherein the first approximate location is used for determining a location providing source for determining the more precise location.
 10. The method of claim 1, further including a step of identifying a location providing service from a plurality of location providing services for determining the more precise location.
 11. The method of claim 1, wherein each of the steps are performed at a time a product or service is requested via an Internet transmission by the user.
 12. A method for determining the location of a user by locating a network station residing with the user for providing network communications, comprising performing the following steps (a) through (f) at a time when the location is desired, wherein one or more networks are accessed by the network station from a plurality of different locations, wherein at least one of the different locations is used to determine whether at least one network service is available to the network station via a connection to at least one of the networks; (a) receiving, via a first network communication from the network station, first identification information for identifying the user or the network station; (b) subsequently transmitting, via a second network communication, second identification information to the network station for storing thereon and distinctively identifying the user or the network station; (c) subsequently receiving, from the network station via a third network communication, the second identification information at a predetermined site; (d) using the received second identification information to identify the first identification information; (e) subsequently transmitting, via a fourth network communication, a request for determining a location of the network station when the first identification information is identified, wherein the request is determined using a first approximate location of the network station; (f) receiving, in response to the request, a fifth network communication for providing, to a predetermined network site, a more precise location of the network station than the first approximate location; and selecting a wireless location provider using the first approximate location, wherein the wireless location provider is then activated for determining the more precise location, the wireless location provider determining the more precise location using one of: a wireless signal time difference of arrival location technology, a wireless signal angle of arrival location technology, and a wireless signal multipath pattern matching location technology; wherein a destination of the request is determined using the first approximate location, wherein the network station includes a cellular wireless device for communicating on the Internet during a performance of the steps (a)-(f); and determining the request according to a coverage area of a location determining service having the first approximate location.
 13. The method as claimed in claim 12, wherein the predetermined network site is directed to one or more of: gambling services, taxation services, services for the distribution of software, advertising presentations, and information related to locations within a local geographical area that the user is expected to find of interest.
 14. The method of claim 12, wherein a destination of the request is determined using the first approximate location, wherein the network station includes a cellular wireless device for communicating on the Internet while each of the steps are performed.
 15. The method of claim 12, further including determining the request according to a coverage area of a location determining service having the first approximate location, wherein the network station includes a cellular wireless device for communicating on the Internet.
 16. The method of claim 12, further including using the first approximate location to identify the location determining service to which the request is transmitted.
 17. The method of claim 12, further including determining a service to be provided to the user according to the more precise location.
 18. The method of claim 12, wherein the first approximate location is used for determining a location providing source for determining the more precise location.
 19. The method of claim 12, further including a step of identifying a location providing service from a plurality of location providing services for determining the more precise location.
 20. An apparatus for determining the location of a user by locating a network station residing with the user for providing network communications at a time when the location is desired, comprising: (a) a cellular wireless device for accessing one or more networks from a plurality of different locations and for communicating on the Internet, at least one of the different locations is used to determine whether at least one network service is available via a connection to at least one of the networks; (b) an identification information transmitter for transmitting a first identification information identifying the user or the network station via a first network communication; (c) an identification information receiver for receiving a second identification information distinctively identifying the user or the network station via a second network communication; (d) a storage for storing the second identification information; and (e) a second identification information transmitter for transmitting the second identification information to a predetermined site via a third network, the first identification information is identified using the second identification information, wherein a request for determining a location of the network station is transmitted via a fourth network communication when the first identification information is identified, wherein the request is determined using a first approximate location of the network station, wherein, in response to the request, a fifth network communication provides, to a predetermined network site, a more precise location of the network station than the first approximate location, wherein a wireless location provider is selected using the first approximate location, wherein the wireless location provider is then activated for determining the more precise location, the wireless location provider determining the more precise location using one of: global positioning location technology, a wireless signal time difference of arrival location technology, a wireless signal angle of arrival location technology, and a wireless signal multipath pattern matching location technology, wherein a destination of the request is determined using the first approximate location, and wherein the request is determined according to a coverage area of a location determining service having the first approximate location. 